A semiconductor device includes a semiconductor die, a redistribution structure, a interconnection structure, and a thermal path structure. The redistribution structure includes an insulation layer over a first surface of the semiconductor die and a conductive trace separated from the first surface by the insulation layer. The conductive trace extends laterally over the first surface from a first end toward a second end that is electrically coupled to a bond pad on the first surface of the semiconductor die. The interconnection structure is coupled to the first end of the conductive trace. The thermal path structure provides a thermal path between the semiconductor die and the interconnection structure. In some embodiment, the thermal path structure comprises a thermal pad that passes through the insulation layer. In other embodiments, the thermal path structure comprises a dummy pad on the first surface of the semiconductor die.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A semiconductor device, comprising: a semiconductor die comprising a die top side and a die bottom side; a circuit integrated in the semiconductor die; a bond pad comprising a bond pad top side and bond pad bottom side, wherein the bond pad top side is on the die bottom side, and wherein the bond pad is electrically coupled to the circuit via the bond pad top side; a dummy pad comprising a dummy pad top side and dummy pad bottom side, wherein the dummy pad top side is on the die bottom side, and wherein the dummy pad is not electrically coupled to the circuit via the dummy pad top side; a redistribution structure comprising an insulation layer over the die bottom side and a conductive trace separated from the die bottom side by the insulation layer, wherein the conductive trace extends laterally over the die bottom side from a first conductive trace portion coupled to the dummy pad toward a second conductive trace portion coupled to the bond pad; and an interconnection structure coupled to the first conductive trace portion; wherein the dummy pad provides a first thermal path that follows a straight line from the die bottom side through the dummy pad to the interconnection structures; wherein the bond pad and the conductive trace provide a second thermal path between the semiconductor die and the interconnection structure; and wherein the first thermal path provides greater thermal conductivity between the semiconductor die and the interconnection structure than the second thermal path provides.
2. The semiconductor device of claim 1 , wherein the dummy pad is in direct contact with the die bottom side.
3. The semiconductor device of claim 1 , wherein: the redistribution structure comprises a second insulation layer on the conductive trace and the insulation layer; and the interconnection structure comprises a solder ball attached to the first conductive trace portion via an opening in the second insulation layer.
4. The semiconductor device of claim 1 , wherein: the semiconductor die further comprises a passivation layer; and the passivation layer defines at least a portion of the die bottom side.
5. The semiconductor device of claim 4 , wherein the passivation layer comprises a bond pad opening through which the bond pad is coupled to the second conductive trace portion and a dummy pad opening through which the dummy pad is coupled to the first conductive trace portion.
6. A method of fabricating a semiconductor device, comprising: providing a semiconductor die, a circuit integrated in the semiconductor die, and a bond pad, wherein the semiconductor die comprises a die top side and a die bottom side, wherein the bond pad comprising a bond pad top side and a bond pad bottom side, wherein the bond pad top side is on the die bottom side, and wherein the bond pad is electrically coupled to the circuit via the bond pad top side; forming a single insulation layer of a redistribution structure on the die bottom side such that a top side of the single insulation layer contacts the die bottom side; providing a thermal path structure comprising a thermal path structure top side and a thermal path structure bottom side, wherein the thermal path structure top side is coupled to the die bottom side; forming a conductive trace of the redistribution structure on the single insulation layer such that the conductive trace is separated from the die bottom side by the single insulation layer, a top side of the conductive trace contacts a bottom side of the single insulation layer, the conductive trace extends laterally over the die bottom side from a first conductive trace portion toward a second conductive trace portion, a top side of the first conductive trace portion is coupled to the thermal path structure bottom side, and a top side of the second conductive trace portion is coupled to the bond pad; and coupling an interconnection structure to a bottom side of the first conductive trace portion.
7. The method of claim 6 , wherein forming the thermal path structure comprises forming a thermal pad that has a greater thermal conductivity than the single insulation layer.
8. The method of claim 6 , wherein forming the thermal path structure comprises forming a dummy pad structure such that a dummy pad top side is on the die bottom side and the dummy pad is not electrically coupled to the circuit via the dummy pad top side.
9. A semiconductor device, comprising: a semiconductor die comprising a die top side and a die bottom side; a circuit integrated in the semiconductor die; a bond pad comprising a bond pad top side and a bond pad bottom side, wherein the bond pad top side is on the die bottom side, and wherein the bond pad is electrically coupled to the circuit via the bond pad top side; a redistribution structure comprising an insulation layer over the die bottom side and a conductive trace separated from the die bottom side by the insulation layer, wherein the insulation layer comprises an insulation layer top side and an insulation layer bottom side, wherein the insulation layer top side contacts the die bottom side and the insulation layer bottom side contacts a top side of the conductive trace, wherein the conductive trace extends laterally over the die bottom side from a first conductive trace portion toward a second conductive trace portion, and wherein a top side of the second conductive trace portion is coupled to the bond pad; a thermal path structure between the first conductive trace portion and the die bottom side, wherein the thermal path structure comprises a thermal path structure top side and a thermal path structure bottom side, the thermal path structure top side is coupled to the die bottom side, and the thermal path structure bottom side is coupled to a top side of the first conductive trace portion; and an interconnection structure coupled to a bottom side of the first conductive trace portion.
10. The semiconductor device of claim 9 , wherein: the thermal path structure comprises a thermal pad that passes through the insulation layer; and the thermal pad has a higher thermal conductivity than the insulation layer.
11. The semiconductor device of claim 9 , wherein the thermal path structure comprises a dielectric material having a higher thermal conductivity than the insulation layer.
12. The semiconductor device of claim 9 , wherein: the semiconductor die further comprises a passivation layer; the passivation layer defines at least a portion of the die bottom side; and the thermal path structure is in direct contact with the die bottom side.
13. The semiconductor device of claim 12 , wherein the insulation top side contacts the passivation layer of the die bottom side.
14. The semiconductor device of claim 9 , wherein: the semiconductor die further comprises a passivation layer; the passivation layer defines at least a portion of the die bottom side; and the passivation layer comprises an opening through which the bond pad is coupled to the second conductive trace portion.
15. The semiconductor device of claim 14 , wherein: the thermal path structure comprises a thermal pad that passes through the insulation layer; the thermal pad comprises a pad top side and a pad bottom side; the pad bottom side is in direct contact with the first conductive trace portion; and the pad top side is in direct contact with the passivation layer.
16. The semiconductor device of claim 9 , wherein: the redistribution structure comprises a second insulation layer on the conductive trace and the insulation layer; and the interconnection structure comprises a solder ball coupled to the first conductive trace portion via an opening in the second insulation layer.
17. The semiconductor device of claim 9 , wherein: the thermal path structure comprises a dummy pad; the dummy pad comprises a dummy pad top side on the die bottom side; the dummy pad is not electrically coupled to the circuit via the bond pad top side; and the dummy pad is in direct contact with the die bottom side.
18. The semiconductor device of claim 17 , wherein: the semiconductor die further comprises a passivation layer; the passivation layer defines at least a portion of the die bottom side; and the passivation layer comprises a bond pad opening through which the bond pad is coupled to the second conductive trace portion and a dummy pad opening through which the dummy pad is coupled to the first conductive trace portion.
19. The semiconductor device of claim 9 , wherein: the thermal path structure and the conductive trace provide a thermal path from the die bottom side to the interconnection structure; and the thermal path provides an all metallic path along a single, straight line from the die bottom side to the interconnection structure.
20. A semiconductor device, comprising: a semiconductor die comprising a die top side and a die bottom side; a circuit integrated in the semiconductor die; a bond pad comprising a bond pad top side and a bond pad bottom side, wherein the bond pad top side is on the die bottom side, and wherein the bond pad is electrically coupled to the circuit via the bond pad top side; a redistribution structure comprising an insulation layer over the die bottom side and a conductive trace separated from the die bottom side by the insulation layer, wherein the insulation layer comprises an insulation layer top side and an insulation layer bottom side, wherein the insulation layer top side contacts the die bottom side and the insulation layer bottom side contacts a top side of the conductive trace, wherein the conductive trace extends laterally over the die bottom side from a first conductive trace portion toward a second conductive trace portion, and wherein a top side of the second conductive trace portion is coupled to the bond pad; a thermal path structure between the first conductive trace portion and the die bottom side, wherein the thermal path structure comprises a thermal path structure top side and a thermal path structure bottom side, the thermal path structure top side is coupled to the die bottom side, and the thermal path structure bottom side is coupled to a top side of the first conductive trace portion; and an interconnection structure coupled to a bottom side of the first conductive trace portion, wherein: the thermal path structure and the conductive trace provide a first thermal path from the die bottom side to the interconnection structure; the bond pad and the conductive trace provide a second thermal path between the semiconductor die and the interconnection structure; and the first thermal path provides greater thermal conductivity between the semiconductor die and the interconnection structure than the second thermal path provides.
21. The semiconductor device of claim 20 , wherein: the semiconductor die further comprises a passivation layer; the passivation layer defines at least a portion of the die bottom side; and the thermal path structure is in direct contact with the die bottom side.
22. The semiconductor device of claim 20 , wherein: the redistribution structure comprises a second insulation layer on the conductive trace and the insulation layer; and the interconnection structure comprises a solder ball coupled to the first conductive trace portion via an opening in the second insulation layer.
23. The semiconductor device of claim 20 , wherein: the thermal path structure comprises a dummy pad; the dummy pad comprises a dummy pad top side on the die bottom side; the dummy pad is not electrically coupled to the circuit via the bond pad top side; and the dummy pad is in direct contact with the die bottom side.
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September 6, 2018
September 7, 2021
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